CN101611303B

CN101611303B - Method for the inspection of bottles or similar containers, and measuring station for an inspection or control segment for bottles or similar containers

Info

Publication number: CN101611303B
Application number: CN200780030398.1A
Authority: CN
Inventors: G·瓦哈尼奥夫茨基
Original assignee: KHS GmbH
Current assignee: KHS GmbH
Priority date: 2006-11-13
Filing date: 2007-11-07
Publication date: 2014-05-07
Anticipated expiration: 2027-11-07
Also published as: EP2092291A1; MX2009002318A; BRPI0716688A2; CN101611303A; US8210059B2; US20100116026A1; WO2008058659A1; DE102006053673A1; JP2010509142A

Abstract

The invention provides a method for the inspection of bottles or similar containers, wherein a predetermined amount of an inspection and/or control liquid is filled into the respective container, and this liquid is analyzed for any possible contamination at least upon partial removal from the container. The withdrawal of the at least one test sample is taken during a measuring phase, by effectuating of at least one measuring gas impulse into the respective container, as well as by suction, from the respective container of a gas comprising the inspection liquid and/or control liquid, which gas is to be analyzed or the analysis gas . The analysis gas is taken from the respective container by using a measurement or probe tube which passes a container open and goes into the container. The container moves during the measuring phase on a conveyer section. A measuring head that is configured for introduction of the measuring gas and for the withdrawal of the analysis gas, is further configured to be moved, at least during the measuring phase, together with the containers. Meanwhile the orientation of an axis corresponding to the measuring head does not change. The invention also provides a station for the inspection of the inspection sections for the bottles or similar containers.

Description

For checking bottle or the method for similar containers and for the inspection of bottle or similar containers or the measuring station of check section

Technical field

The present invention relates to a kind of for checking bottle or the method for similar containers and a kind of for checking the inspection of bottle or similar containers or the measuring station of check section.

Background technology

Known and especially for the filling thing of liquid state being filled to the production line of container, using for bottle or the inspection of similar containers or check section, to container was being checked aspect possible pollution before filling, thus, then contaminated container also before filling or even also, before cleaning, just can from production line, discharge.At this, especially also known: by check and/or detecting liquid quantitatively, respectively with determine or regularly predetermined volume introduce in container, the pollutant that may exist in container thus, (such as foul or other foreign matter, bacterium etc.) dissolves in inspection and/or detecting liquid.And then from corresponding container, take out sample and immediately it analyzed, wherein, this sample can relate to a part for the inspection that exists in container and/or detecting liquid or also relate to a part that is included in the gas in container.

The condition precedent that checks according to the rules container is not only accurate quantification and is introduced and checks and/or detecting liquid, the amount that is inspection in whole containers and/or detecting liquid is constant in strict limit, and be reproducibly to take out sample, take out especially by this way: make share or the amount of inspection in corresponding sample and/or detecting liquid and/or corresponding gas constant in strict limit for whole containers.

Summary of the invention

Task of the present invention is, provides a kind ofly for checking the method for bottle or similar containers, and the method is in the situation that efficiency high (quantity of time per unit container handling is high) also provides accurate measurement and analysis result.

In order to solve this task, the invention provides a kind of for checking the method for bottle or similar containers.In the method, to check and/or detecting liquid is incorporated in corresponding container, in measuring phases, from each container, take out at least one sample of at least one sample of this inspection and/or detecting liquid or the gaseous reaction products of possible pollutant and inspection and/or detecting liquid and possible pollutant is checked or analyzed.Wherein: by least one measurement gas pulse being incorporated in corresponding container and pumping out this inspection of comprising atomised form and/or gas to be analyzed or the analytical gas of detecting liquid carries out the taking-up of described at least one sample measuring phases by the container from corresponding, wherein from corresponding container, with measurement or a sound-pipe extending into container through vessel port, take out described analytical gas, container is moving during measuring phases on transportation section; Comprise described measurement or sound-pipe and for introducing described measurement gas and moving together with container is at least during measuring phases for taking out the measuring head of described analytical gas, the orientation of the axis vertical with throughput direction of corresponding measuring head does not change simultaneously.

In addition, the present invention also provides a kind of for the measuring station at the inspection of checking aspect possible pollution or measuring section to bottle or similar containers.This measuring station has for taking out and to be incorporated in advance the inspection of container and/or at least one sample of detecting liquid or gaseous reaction products and for checking and analyze the device of corresponding sample from container respectively.Wherein: describedly for taking out the device of at least one sample, by a measuring head that can be docked on corresponding container, formed, this measuring head has at least one first measuring head hole and at least one second measuring head hole, described the first measuring head hole for being incorporated into pulsed measurement gas corresponding container under pressure, described the second measuring head hole is for inputing to analytic unit by least one sample of the analytical gas of the inspection that comprises atomised form and/or detecting liquid from corresponding container, wherein this measuring head has one and extend into measurement or the sound-pipe in container through vessel port, described analytical gas is removed with described measurement or sound-pipe from corresponding container.This measuring head is arranged on measuring station movingly, be arranged in such a way: this measuring head at least moves during taking out corresponding sample together with the container moving on transportation section, the orientation of the axis vertical with throughput direction of corresponding measuring head does not change simultaneously.

Accompanying drawing explanation

Below by accompanying drawing, by means of embodiment, describe the present invention in detail.Accompanying drawing represents:

Fig. 1, for the inspection of bottle or the explanatory view of check section, has according to analysis of the present invention or measuring station;

The simplification view of the section of the measuring head of the measuring station of Fig. 2 Fig. 1;

The other form of implementation of the measuring head of Fig. 3 and Fig. 4 measuring station as the view of Fig. 2;

Fig. 5 respectively in a～c of position the measurement of the measuring head of Fig. 4 or sound-pipe together with the section of bottle neck portion;

The measuring head of Fig. 7 measuring station is together with the simplification view that leads to the pipeline of analytic unit;

Fig. 8 is for the single view of the different driving device of the elevating movement of measuring head.

Embodiment

In these figure, the measurement for bottle 2 or similar containers or the inspection section with 1 mark mainly comprises a conveying device 3 generally, bottle 2 is upright in this conveying device, its bottle of axis in the vertical direction of usining directionally moves on throughput direction A as single track bottle stream, exactly shown in motion like this in form of implementation: bottle 2 mutually nestles in this bottle of stream, and these bottles input to this device one by one.

In the delivery section being formed by conveying device 3, be provided with one for by check and/or check liquid quantitative and be incorporated into the station 4 of bottle 2.This check and/or inspection liquid are for example disinfectant or other neutral liquid or the later to be filled product itself compatible or compatible with the product in bottle 2 later to be filled.The pollutant generation chemical reaction that also can use and can expect in due form, this be preferably formed be easy to the liquid state that detects or gaseous reaction products and inspecting after again from the removed inspection liquid of bottle 2.

Stand and 4 there is a jet pipe 5, check and/or check that liquid is incorporated in each bottle 2 by this jet pipe with accurate predetermined or quantitative amount and this jet pipe is inserted in relevant bottle by a drive unit 6 when bottle 2 arrival station 4 for this reason through bottle neck portion 2.1 by declining, then servo-actuated together with bottle 2, and move out from this bottle.At this, drive unit 6 is constructed like this: make jet pipe 5 implement to have the elevating movement of vertical component and/or horizontal component.Inspection and/or detecting liquid are provided by a storage device 7.

On throughput direction A, after station 4, be provided with a measuring station 8 directly or indirectly, in this measuring station, from each bottle 2, take out at least one sample.Depending on used method, described sample can be to be incorporated into the inspection of bottle in 2 and/or a part for detecting liquid, wherein, this check and/or check liquid comprise may receive or be dissolved in the pollutant (especially foreign matter, bacterium etc.) in this inspection and/or detecting liquid or also comprise the reaction product of each bottle 2.The sample taking out from bottle 2 can be also gas sample, and this gas sample for example comprises the gaseous reaction products of possible pollutant and inspection and/or detecting liquid.In any case, subsequently taken out sample is analyzed.

For guarantee check and/or detecting liquid in pollutant levels high as far as possible or also in order to guarantee to form the reaction product of q.s, measuring station 8 is spaced apart like this with station 4 on throughput direction A: even if make, measuring and/or checking that section 1 also reaches while working with maximal efficiency for checking and/or enough action time or the acting duration of detecting liquid.

In order to take out sample, when bottle 2 has arrived measuring station 8, the measuring sonde above the movement locus measuring head of measuring station 8 10, be arranged on bottle neck portion 2.1 in its initial position 9 is inserted in relevant bottle through bottle neck portion 2.1, and by measuring head 10 sealing bottles mouths 2.1.And then, by with its free end, extend in relevant bottle 2 and with the measuring sonde 9 that this end is obviously arranged in the below, edge of bottle neck portion 2.1, the measurement gas of the volume of accurately measuring is incorporated in bottle inner space under pressure, exactly preferably as pressure pulse, introduce, exactly controlled valve gear 11.1 is controlled ground provides this source 11 that is for example the measurement gas of disinfecting air form to introduce from one.

Simultaneously or stagger in time gas to be analyzed or air-gas potpourri are pumped out and input to analytic unit 13 by a pipeline 12 from bottle 2 use measuring head 10, described gas to be analyzed or air-gas potpourri are called as below analytical gas and at least comprise a part that is the inspection of form and/or the part for detecting liquid by the meticulous distribution of pressure pulse or atomization or also comprises gaseous reaction products.

The duration of pulse of pressure pulse or measurement gas pulse and/or pressure and/or temperature are incorporated in bottle 2 by measurement gas and each sampling or measuring phases that analytical gas is pumped out from bottle 2 are identical for comprising, also the measurement gas of same amount are incorporated in bottle 2 and the analytical gas sample taking out comprises respectively inspection and/or detecting liquid and/or the gaseous reaction products of the atomization of same amount thus in each measuring phases.The suction of analytical gas is for example carried out at the duration of corresponding measurement gas pulse, but also can lingeringly finish with respect to it.The duration of pulse of measurement gas pulse remains unchanged under armamentarium efficiency (container/hour), for example 30ms.

In analytic unit 13 to being undertaken at least one times by measuring the analytical gas of pipeline 12 suctions, preferably repeatedly, for example analyze for twice or three times.In order to provide for introducing measurement gas pulse, atomization inspection and/or detecting liquid and pumping out best as far as possible situation analytical gas, measuring sonde 9 and measuring head 10 be structure so not only: make their form separately, for introducing measurement gas and pumping out the passage of analytical gas, and preferably construct like this: make being surrounded for pumping out hole or the aperture apparatus of analytical gas by least one for introducing the hole of measurement gas pulse of measuring sonde 9, in other words, for example by an annular hole or a plurality of single hole, surrounded.

Because bottle 2 also moves during introducing measurement gas impulse duration and pumping out analytical gas on throughput direction A, institute thinks that measuring head 10 arranges a drive unit 14, this drive unit is that measuring head 10 produces elevating movement, this elevating movement not only comprises a vertical component, for making measuring head 10 towards 2 declines of corresponding bottle or for measuring head 10 is lifted from corresponding bottle 2, and comprise a horizontal component, exactly for making measuring head 10 and corresponding bottle 2 servo-actuated and for making measuring head 10 turn back to initial position after corresponding measuring phases together during measuring phases.By a control device 15 accessory drives 14 and the motion of control survey 10 thus, the sensor 16 that exactly detects the position of bottle 2 according at least one is controlled, but preferably also according to instantaneous plant efficiency and also control like this according to the transporting velocity of conveying device 3 thus: not long ago just activated drive unit 14 with the long as far as possible interlocking time of bottle 2 at the actual measuring stations 8 that arrive of bottle 2 in order to obtain measuring head 10 during measuring phases, it is exactly such: the duration during the delay causing by inertia of drive unit 14 is not shortened measuring head 10 effects or is docked on bottle 2, but measuring head 10 is enclosed within this bottle or its bottle neck portion 2.1 as far as possible without delay when bottle 2 moves on measuring station 8.For this reason, not only need to determine the best time of measuring head 10 setting in motions, and more need by calculating, to come according to plant efficiency for this motion the corresponding change curve of determination of acceleration, delay, maximal rate and these parameters, then the drive unit by measuring head makes it starting.This processing mode is also ingredient of the present invention.

Described measurement and/or check that section 1 is particularly useful for the liquid filling thing of cold sterile filling, the equipment of cold sterile filling beverage for example.

If it is contaminated to determine a bottle 2 in analysis, this bottle is considered to use and discharges.Aseptic is being required very strict in the situation that, comprising that whole batch of a contaminated bottle 2 also must be prohibited for continuing to process or being considered to use and discharging.Bottle 2 is for example plastic bottle, for example the recyclable bottle of PET.

Fig. 2 illustrates in greater detail measuring head 10.This measuring head consists essentially of a seal element 18 being arranged in measuring head housing 17, and sealing element is configured for the centering cone of bottle 2 simultaneously.During introducing measurement gas and taking out sample or analytical gas, seal element 18 rests in bottle neck portion 2.1 hermetically, setting in the region that exactly taper of the passage in seal element 18 19 is widened.In this form of implementation, only for measurement gas or measurement gas pulse being incorporated into the sound-pipe 9 of corresponding bottle, in measuring phases, with its free end, extending in bottle 2 and at this, with this end, be disposed generally on below the edge of bottle neck portion 2.1.Sound-pipe 9 and around passage 19 form circular passages 19.1, analytical gas is sucked out and guides to analytic unit 13 by this circular passage.Self-evident, this circular passage 19.1 is externally led in pipeline 12 hermetically enclosedly.

Measuring head 10 is fixed on a measuring head bearing part 20 moving in the mode illustrating above by drive unit 14 by housing 17.In order to compensate the deviation of the height aspect of bottle 2, and in order to realize seal element 18 during introducing measurement gas pulse and taking out analytical gas, rest on hermetically on corresponding bottle 2, sealing element be for example configured to caoutchouc elasticity and/or can be axially movably and by spring assembly prestrain be arranged in housing 17.

Fig. 3 shows the view of simplifying very much of a measuring head 10a as other form of implementation, the difference of this measuring head and measuring head 10 is only, the cone angle of the recess 19a widening on the downside of sealing or centring element 18a is significantly greater than the cone angle of recess 19, thus, in the situation that the vertical stroke of measuring head 10a is very short, just reached sealing between bottle neck portion 2.1 and seal element 18a by tactile.

Fig. 4 shows the view of simplifying very much of a measuring head 10b as other form of implementation, this measuring head only comprises that one is measured or sound-pipe 9b and covering flat, that be for example configured to flat disc or closure elements 21 substantially, and this covering or closure elements seals the bottle neck portion 2.1 of relevant bottle 2 during corresponding measuring phases.Measuring tube 9b stretches out the bottom surface over closure elements 21 with its free end, extend in corresponding bottle 2 thus during measuring phases with this free end.

According to Fig. 5, measure or sound-pipe 9b comprise an interior pipeline section 22 and one with a determining deviation with one heart around the outer segment 23 of interior pipeline section.Two pipeline sections open wide on the free end of measuring tube 9b.Pipeline section 22 is configured for the passage of input measurement gas pulses.By the circular passage 24 forming, pump out analytical gas between pipeline section 22 and 23.In this form of implementation, by around pipeline section 22 or around for introducing the channel setting circular passage 24 of measurement gas pulse, can aspect atomization inspection and/or detecting liquid and pumping out aspect analytical gas, realize optimal cases.

Because closure elements 21 flatly abuts on the edge of bottle neck portion 2.1 during measuring, so also there is following possibility in this form of implementation: utilize the diameter with bottle neck portion 2.1 of the measuring tube 9b little overall diameter of comparing to extend Measuring Time, extend in other words such time: be inserted in corresponding bottle 2 at this time durations measuring tube 9b.Fig. 5 has explained this situation with position a～c.

Position a shows such state: in this state, measuring tube 9b is inserted in bottle neck portion 2.1 when measuring process starts.At this, the axis of measuring tube 9b misplaces on throughput direction A with respect to the axis of bottle neck portion 2.1.Position b shows the roughly state in the middle of measuring phases, and in this state, the axis coaxle heart of measuring tube 9b and bottle neck portion 2.1 is arranged.Position c shows the roughly state when measuring phases finishes, and in this state, the axis of measuring tube 9b misplaces against throughput direction A with respect to the axis of bottle neck portion 2.1.

After each measuring phases, preferably wash the coupling arrangement between measuring

head

10,10a or 10b and measuring head and analytic unit 13, for example use measurement gas (for example disinfecting air) washing, make thus to survey quantitative analysis and due to the measurement of previously having carried out, be not retained in residue in measuring

head

10,10a, 10b and/or these coupling arrangements and distortion.

Also can consider other measurement measure, for example, with such form: in the coupling arrangement according to Fig. 6 between measuring

head

10,10a or 10c and analytic unit 13 or pipeline 12, always receive at any time a plurality of that from the measurement of joining before and after in time or measuring phases I～V, obtain and come from thus gas flow different vessels, to be analyzed or gas sample, then by described gas flow to be analyzed or gas sample inputs to analytic unit 13 in succession or for analysis at least one times.This form of implementation has advantage: the idle running time between each measuring phases significantly reduces and measures or check that efficiency or the processing speed of section 1 thus can be higher.

Fig. 7 illustrates in greater detail a form of implementation of drive unit 14.This drive unit consists essentially of a plate 25, and this plate is fixed on to be measured and/or checks on the unshowned framework of section 1 and a crankwheel 26 is rotatably supported on this plate around the horizontal axis vertical with respect to throughput direction A.Measuring head bearing part 20 with measuring

head

10,10a or 10b is fixed on the crank pin 27 of the crankwheel 26 that can drive by drive unit 28.Measuring head bearing part 20 by one by parallelogram levers 29 and 30 and two parallelogram guide pieces 32 of forming of pitman shaft 31 led like this: make this measuring head bearing part implement vertical, the elevating movement of level simultaneously when crankwheel 26 rotation, but being oriented in the case of axis of

corresponding measuring head

10,10a or 10b do not change.

Fig. 8 shows a drive unit 14a, and this drive unit can replace drive unit 14 to use, and mainly has two profile of tooth belt wheels 33 and 34.These profile of tooth belt wheels are with their axis ground parallel with respect to each other. and again with respect to measuring and/or checking that the throughput direction A of section 1 is vertically directed so in the horizontal direction: make the axis of profile of tooth belt wheel 33 be positioned in vertical direction the axis top of profile of tooth belt wheel 34.The cog belt 35 that forms a closed loop leads by two profile of tooth belt wheels, and in these profile of tooth belt wheels, for example profile of tooth belt wheel 33 drives by drive motor 28.Each profile of

tooth belt wheel

33 and 34 has a

crank pin

36 or 37, this crank pin is bearing in measuring head bearing part 20a, is exactly such:

crank pin

36 and 37 distance equal the axial line distance of profile of

tooth belt wheel

33 and 34 and the connecting line between

crank pin

36 and 37 axis and with respect to the connecting line of the axis of profile of

tooth belt wheel

33 and 34, extend abreast all the time.When drive motor 28 is activated or connects, measuring head bearing part 20a again to have the required stroke motion of vertical component and horizontal component, does not exactly change the orientation of corresponding measuring head axis with the

measuring head

10,10a or the 10b that are fixed on there.

Before by means of embodiment, invention has been described.Self-evident, can carry out multiple variation and modification, and do not depart from thus the present invention based on inventive concept.

Reference list

1 measures and/or checks section

2 bottles

2.1 bottle neck portions

3 conveying devices

4 for introducing the station of inspection and/or detecting liquid

5 jet pipes

6 drive units

7 for checking and/or the storage device of detecting liquid

8 measuring stations

9,9a, 9b measures or sound-pipe

10,10a, 10b measuring head

11 sources for measurement gas

11.1 operation valves

12 pipelines

13 analytic units

14,14a drive unit

15 control device

16 sensors

17 measuring head housings

18,18a seal element

Recess in 19,

19a seal element

18 or 18a or passage

19.1,19a.1 circular passage

20,20a measuring head bearing part

21 closure elements

22,23 pipeline sections

24 circular passages

25 plates

26 crankwheels

27 crank pins

28 drive motor

29,30 parallelogram levers

31 coupling elements

32 pairs of parallelogram guide pieces

33,34 profile of tooth belt wheels

35 cog belts

36,37 crank pins

The throughput direction of A conveying device 3

Claims

1. for checking the method for bottle type container (2), in the method, inspection and/or detecting liquid are incorporated in corresponding container (2), in measuring phases, from each container (2), take out at least one sample of at least one sample of this inspection and/or detecting liquid or the gaseous reaction products of possible pollutant and inspection and/or detecting liquid and possible pollutant is checked or analyzed, it is characterized in that: by least one measurement gas pulse being incorporated in corresponding container (2) and pumping out this inspection of comprising atomised form and/or gas to be analyzed or the analytical gas of detecting liquid carries out the taking-up of described at least one sample measuring phases by the container from corresponding (2), wherein

From corresponding container (2), with measurement or a sound-pipe (9b) extending into container through vessel port (2.1), take out described analytical gas,

Container (2) is (3) upper motion in transportation section during measuring phases; Comprise described measurement or sound-pipe (9b) and for introducing described measurement gas and for taking out the measuring head (10 of described analytical gas, 10a, 10b) motion together with container (2) is at least during measuring phases, the measuring head (10 that while is corresponding, 10a, 10b) the orientation of the axis vertical with throughput direction do not change.

2. method according to claim 1, is characterized in that: by described at least one measurement gas pulse, make this inspection and/or detecting liquid atomization at least in part in container (2).

3. method according to claim 1, it is characterized in that: the gaseous reaction products that makes to be included in container (2) by described at least one measurement gas pulse mixes each other at least in part, and described gaseous reaction products is inspection and/or detecting liquid and is present in the gaseous reaction products between the pollutant in container (2).

4. according to the method one of the claims Suo Shu, it is characterized in that: corresponding container (2) is sealed during measuring phases.

5. according to the method one of claim 1-3 Suo Shu, it is characterized in that: pumping out simultaneously of the introducing of described at least one measurement gas pulse and described analytical gas carried out.

6. according to the method one of claim 1-3 Suo Shu, it is characterized in that: by negative pressure, described sample is pumped out from corresponding container.

7. according to the method one of claim 1-3 Suo Shu, it is characterized in that: described measurement gas is incorporated in corresponding container (2) with predetermined volume.

8. according to the method one of claim 1-3 Suo Shu, it is characterized in that: by described measurement gas by least one measurement gas pulse with the predetermined duration of pulse, be incorporated in corresponding container (2) with predetermined pressure and/or with predetermined temperature.

9. according to the method one of claim 1-3 Suo Shu, it is characterized in that: the duration of pulse value of described at least one measurement gas pulse is about 30ms.

10. according to the method one of claim 1-3 Suo Shu, it is characterized in that: the analytical gas that the container from corresponding (2) is taken out carries out at least twice analysis.

11. according to the method one of claim 1-3 Suo Shu, it is characterized in that: a plurality of samples of the analytical gas of different vessels (2) are temporarily stored in a reservoir (12) and from this reservoir and are supplied to and analyze use.

12. methods according to claim 11, is characterized in that: this reservoir consists of at least one interface channel (12) between measuring head (10,10a, 10b) and analytic unit (13).

13. methods according to claim 12, is characterized in that: described interface channel (12) is configured to receive one group of sample of the analytical gas of taking from a plurality of containers (2).

14. according to the method one of claim 1-3 Suo Shu, it is characterized in that: the detection or the measuring tube (9,9a, 9b) that by least one, through vessel port or container finish (2.1), extend in corresponding container (2) are introduced described measurement gas.

15. according to the method one of claim 1-3 Suo Shu, it is characterized in that: from corresponding container with one with vessel port (2.1) in sealing by tactile passage (19.1,19a.1) take out described analytical gas.

16. according to the method one of claim 1-3 Suo Shu, it is characterized in that: described measurement gas is disinfecting air.

17. methods according to claim 1, it is characterized in that: this measuring head (10,10a, 10b) for for measuring phases, be docked at corresponding container (2) upper and in order to separate with this container (2) measuring phases after, pass through a drive unit (14,14a) with a stroke with vertical component and horizontal component, move.

18. according to the method one of claim 1-3 Suo Shu, it is characterized in that: at least when the efficiency of used equipment changes at every turn, according to the momentary efficiency of the position of container (2) subsequently and the equipment used, aspect the corresponding change curve of the acceleration during motion stage and/or delay and/or maximal rate and/or these parameters, by calculating, determine that measuring head (10) is from a container (2) to the motion of container (2) subsequently.

19. for checking the inspection of bottle type container (2) or the measuring station of check section (1), this measuring station has for taking out and to be incorporated in advance the inspection of container (2) and/or at least one sample of detecting liquid or gaseous reaction products and for checking and analyze the device of corresponding sample from container (2) respectively, it is characterized in that: described for the device that takes out at least one sample by a measuring head (10 that can be docked on corresponding container (2), 10a, 10b) form, this measuring head has at least one first measuring head hole and at least one second measuring head hole (19.1, 19a.1, 24), described the first measuring head hole for being incorporated into pulsed measurement gas corresponding container (2) under pressure, described the second measuring head hole is for inputing to analytic unit (13) by least one sample of the analytical gas of the inspection that comprises atomised form and/or detecting liquid from corresponding container (2), wherein

This measuring head has one and extend into measurement or the sound-pipe in container through vessel port (2.1), and described analytical gas is removed with described measurement or sound-pipe from corresponding container (2),

This measuring head (10,10a, 10b) be arranged on movingly on measuring station (8), be arranged in such a way: this measuring head at least moves during taking out corresponding sample with together with transportation section (3) upper container (2) moving, the measuring head (10 that while is corresponding, 10a, 10b) the orientation of the axis vertical with throughput direction do not change

Described at least one second measuring head hole consists of a hole (19.1,19a.1,24), and this hole is at least in part around described at least one first measuring head hole or at least in part around described measurement or sound-pipe.

20. measuring stations according to claim 19, it is characterized in that: be provided with a source (11) in check, measurement gas is provided under pressure, this source is controlled like this: measurement gas is incorporated in corresponding container (2) with predetermined volume respectively.

21. measuring stations according to claim 20, is characterized in that: this source (11) or an operation valve device (11.1) that measurement gas is controlled to the output in container (2) are controlled like this: make measurement gas with predetermined pressure pulse of duration of pulse, be incorporated in corresponding container (2) with predetermined pressure and/or with predetermined temperature.

22. measuring stations according to claim 21, is characterized in that: provide the source (11) of measurement gas and/or this operation valve device (11.1) to be controlled like this: make the duration of pulse value of described at least one measurement gas pulse be about 30ms.

23. according to the measuring station one of claim 19-22 Suo Shu, it is characterized in that: corresponding sample takes out from corresponding container (2) by negative pressure or by suction.

24. according to the measuring station one of claim 19-22 Suo Shu, it is characterized in that: be provided with a reservoir (12), this reservoir is for storing or temporarily store a plurality of samples of the analytical gas of different vessels, for then analyzing.

25. measuring stations according to claim 24, is characterized in that: this reservoir consists of at least one interface channel (12) between this measuring head (10,10a, 10b) and this analytic unit (13).

26. according to the measuring station one of claim 19-22 Suo Shu, it is characterized in that: for described at least one first measuring head hole of measurement gas being incorporated into corresponding container (2) by being arranged on this measuring head (10,10a, described detection 10b) or the hole of measuring tube form, and the free end of this detection or measuring tube can pass vessel port (2.1) and be inserted in corresponding container (2) in order to introduce measurement gas.

27. according to the measuring station one of claim 19-22 Suo Shu, it is characterized in that: this measuring head (10,10a, 10b) is configured to be touching on hermetically in corresponding container or its vessel port (2.1).

28. measuring stations according to claim 27, it is characterized in that: this measuring head (10,10a) by drive unit for elevating movement (14,14a) be arranged on movingly this measuring station (8) upper, this elevating movement has vertical component and horizontal component.